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7-Oxabicyclo[4.1.0]heptane, 1-phenyl-, (1R,6R)- is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

17540-04-4

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17540-04-4 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 17540-04-4 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 1,7,5,4 and 0 respectively; the second part has 2 digits, 0 and 4 respectively.
Calculate Digit Verification of CAS Registry Number 17540-04:
(7*1)+(6*7)+(5*5)+(4*4)+(3*0)+(2*0)+(1*4)=94
94 % 10 = 4
So 17540-04-4 is a valid CAS Registry Number.

17540-04-4Relevant academic research and scientific papers

Enzymatic-like mediated olefins epoxidation by molecular oxygen under mild conditions

Zhou, Xian-Tai,Ji, Hong-Bing,Xu, Jian-Chang,Pei, Li-Xia,Wang, Le-Fu,Yao, Xing-Dong

, p. 2691 - 2695 (2007)

Highly efficient epoxidation of olefins by molecular oxygen with catalytic amount of manganese meso-tetraphenylporphyrin (Mn(TPP)) at the ppm level were reported. The catalyst conferred high activity and selectivity for the olefins epoxidation under ambient temperature and atmospheric pressure. The turnover number (TON) of the catalyst could reach up to 700 million, which is comparable to enzyme catalysis.

A new and efficient methodology for olefin epoxidation catalyzed by supported cobalt nanoparticles

Rossi-Fernández, Lucía,Dorn, Viviana,Radivoy, Gabriel

supporting information, p. 519 - 526 (2021/03/31)

A new heterogeneous catalytic system consisting of cobalt nanoparticles (CoNPs) supported on MgO and tert-butyl hydroperoxide (TBHP) as oxidant is presented. This CoNPs@MgO/t-BuOOH catalytic combination allowed the epoxidation of a variety of olefins with good to excellent yield and high selectivity. The catalyst preparation is simple and straightforward from commercially available starting materials and it could be recovered and reused maintaining its unaltered high activity.

Organocatalytic epoxidation and allylic oxidation of alkenes by molecular oxygen

Orfanidou, Maria,Petsi, Marina,Zografos, Alexandros L.

supporting information, p. 9172 - 9178 (2021/11/30)

Pyrrole-proline diketopiperazine (DKP) acts as an efficient mediator for the reduction of dioxygen by Hantzsch ester under mild conditions to allow the aerobic metal-free epoxidation of electron-rich alkenes. Mechanistic crossovers are underlined, explaining the dual role of Hantzsch ester as a reductant/promoter of the DKP catalyst and a simultaneous competitor for the epoxidation of alkenes when HFIP is used as a solvent. Expansion of this protocol to the synthesis of allylic alcohols was achieved by adding a catalytic amount of selenium dioxide as an additive, revealing a superior method to the classical application of t-BuOOH as a selenium dioxide oxidant.

RUTHENIUM COMPLEX AND PRODUCTION METHOD THEREOF, CATALYST, AND PRODUCTION METHOD OF OXYGEN-CONTAINING COMPOUND

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Paragraph 0113-0117, (2021/01/29)

PROBLEM TO BE SOLVED: To provide a ruthenium complex that is particularly useful as a catalyst for oxidizing a substrate having a carbon-hydrogen bond. SOLUTION: The ruthenium complex represented by the general formula (i) or a cis conformer thereof is provided. In the general formula (i), R1 represents H, a phenyl group or a substituted phenyl group; R2 represents H, a phenyl group or an alkyl group; L1 represents halogen or water molecule; L2 represents triphenylphosphine, pyridine, imidazole or dimethylsulfoxide; X represents halogen; and n represents 1 or 2. SELECTED DRAWING: None COPYRIGHT: (C)2021,JPO&INPIT

Aldehyde-catalyzed epoxidation of unactivated alkenes with aqueous hydrogen peroxide

Kokotos, Christoforos G.,Kokotou, Maroula G.,Lotter, Dominik,Sparr, Christof,Triandafillidi, Ierasia

, p. 10191 - 10196 (2021/08/12)

The organocatalytic epoxidation of unactivated alkenes using aqueous hydrogen peroxide provides various indispensable products and intermediates in a sustainable manner. While formyl functionalities typically undergo irreversible oxidations when activating an oxidant, an atropisomeric two-axis aldehyde capable of catalytic turnover was identified for high-yielding epoxidations of cyclic and acyclic alkenes. The relative configuration of the stereogenic axes of the catalyst and the resulting proximity of the aldehyde and backbone residues resulted in high catalytic efficiencies. Mechanistic studies support a non-radical alkene oxidation by an aldehyde-derived dioxirane intermediate generated from hydrogen peroxide through the Payne and Criegee intermediates.

Lamellar porous mo-modified carbon nitride polymers photocatalytic epoxidation of olefins

Gu, Qian,Jiang, Ping Ping,Shen, Yirui,Zhang, Kai,Wai, Phyu Thin,Haryono, Agus

, (2021/02/21)

A lamellar porous Mo-modified carbon nitride polymers (CN-Mo) was successfully prepared by a simple bottom-up method, which involves molecule self-assembly by hydrogen bonding between uracil and melamine. Analysis Results of X-ray diffraction (XRD), scann

Construction of an Asymmetric Porphyrinic Zirconium Metal-Organic Framework through Ionic Postchiral Modification

Berijani, Kayhaneh,Morsali, Ali

, p. 206 - 218 (2021/01/11)

Herein, one kind of neutral chiral zirconium metal-organic framework (Zr-MOF) was reported from the porphyrinic MOF (PMOF) family with a metallolinker (MnIII-porphyrin) as the achiral polytopic linker [free base tetrakis(4-carboxyphenyl)porphyrin] and chiral anions. Achiral Zr-MOF was chiralized through the exchange of primitive anions with new chiral organic anions (postsynthetic exchange). This chiral functional porphyrinic MOF (CPMOF) was characterized by several techniques such as powder X-ray diffraction, Fourier transform infrared spectroscopy, ultraviolet-visible spectroscopy, 1H NMR, energy-dispersive X-ray spectroscopy, scanning electron microscopy, and Brunauer-Emmett-Teller measurements. In the resulting structure, there are two active metal sites as Lewis acid centers (Zr and Mn) and chiral species as Br?nsted acid sites along with their cooperation as nucleophiles. This CPMOF shows considerable bimodal porosity with high surface area and stability. Additionally, its ability was investigated in asymmetric catalyses of prochiral substrates. Interactions between framework chiral species and prochiral substrates have large impacts on the catalytic ability and chirality induction. This chiral catalyst proceeded asymmetric epoxidation and CO2 fixation reactions at lower pressure with high enantioselectivity due to Lewis acids and chiral auxiliary nucleophiles without significant loss of activity up to the sixth step of consecutive cycles of reusability. Observations revealed that chiralization of Zr-MOF could happen by a succinct strategy that can be a convenient method to design chiral MOFs.

Method for synthesizing epoxy compound by catalyzing epoxidation of olefin with nano-alumina

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Paragraph 0038-0079, (2020/06/17)

The invention belongs to the field of organic synthesis and catalysis, and discloses a method for synthesizing an epoxy compound by catalyzing epoxidation of olefin with nano-alumina. The method comprises the following steps: adding a solvent, olefin, nano-alumina and fatty aldehyde into a reactor to obtain a mixed solution, vacuumizing a reaction container, introducing oxygen, heating and stirring for a reaction by taking olefin as a raw material, taking nano-alumina as a catalyst and taking fatty aldehyde as a reducing agent, obtaining a reaction solution after the reaction is finished, andseparating and purifying the reaction solution to obtain the epoxy compound. The method has the advantages of cheap and easily available in the catalyst, easy to obtain, mild in reaction condition, wide in substrate applicability and safe and simple to operate, and has a potential industrial application prospect.

Epoxidation of Alkenes with Molecular Oxygen as the Oxidant in the Presence of Nano-Al 2O 3

Zhou, Xuan,Wang, Qiong,Xiong, Wenfang,Wang, Lu,Ye, Rongkai,Xiang, Ge,Qi, Chaorong,Hu, Jianqiang

, p. 1789 - 1794 (2020/09/18)

The nano-Al 2O 3-promoted epoxidation of alkenes with molecular oxygen as the oxidant has been developed, providing an efficient route to a variety of epoxides in moderate to excellent yields. The environmentally friendly and efficient nano-Al 2O 3catalyst could be easily recovered and reused five times without significant loss of activity.

Method for catalyzing epoxidation of olefin

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Paragraph 0037-0038, (2020/04/17)

The invention discloses a method for catalyzing epoxidation of olefin. According to the method, an olefin compound is used as a raw material, hydrogen peroxide, peracetic acid, tert-butyl hydroperoxide and m-chloroperoxybenzoic acid are used as oxidants, a metalloporphyrin-based super-cross-linked polymer is used as a catalyst, and a catalytic reaction is carried out at a reaction temperature of 25-80 DEG C to obtain an epoxide at high selectivity. The method has the advantages of simple process, high yield, catalyst recyclability, mild conditions and the like.

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